Privacy lock

ABSTRACT

A door latch, the knobs of which may be turned either clockwise or counterclockwise for operating the latch bolt is described. One of the knobs engages the corresponding escutcheon when the knob is pushed towards the door to prevent rotation and provide a privacy lock. A pair of pins extend between the knobs and engage ramps on the inside end of latch bolt for retracting it. The latch bolt is split so that the ramp portions may collapse towards each other for insertion through a hole in the edge of the door. Interlocking support posts on the two escutcheons prevent the latch bolt from collapsing during use. A &#39;&#39;&#39;&#39;kickoff&#39;&#39;&#39;&#39; mechanism operated by the latch bolt prevents inadvertent locking and also provides resilient release to prevent damage in case the door is locked while the locking knob is held in. The door latch is made of injection molded plastic and the two escutcheons are held together by a single axial screw.

United States Patent [1 1 .Jerila Nov. 20, 1973 [54] PRIVACY LOCK Primary Examiner-Albert G. Craig, Jr.

. [75 Inventor: Torsti T. T. Jerila, Baldwin Park, Parker Calif. [57] ABSTRACT [73] Asslgnee: Acmegeneral .Corpomhon A door latch, the knobs of which may be turned either Monrovla Cahf clockwise or counterclockwise for operating the latch [22] Filed: June 9, 1972 bolt is described. One of the knobs engages the corres ondin escutcheon when the knob is ushed towards [2]] Appl' 26l515 tl ie doc? to prevent rotation and pro /ide a privacy lock. A pair of pins extend between the knobs and en- [52] US. Cl... 292/169.2l, 292/359, 292/DIG. 26, gage ramps on the inside end of latch bolt for retract- 292/DIG. 38 ing it. The latch bolt is split so that the ramp portions [51] Int. Cl. E05c 1/16 m y c llapse tow r each other for insertion through [58] Field of Search 70/216; 292/l69.l4, hole in the g of the door- Interlooking pp 292/ 169.21, 359, DIG. 26 posts on the two escutcheons prevent the latch bolt from collapsing during use. A kickoff mechanism [56] References Cited operated by the latch bolt prevents inadvertent lock- UNITED STATES PATENTS ing and also provides resilient release to prevent dama e in case the door is locked while the lockin knob 5:23:23; 2113?? hfilfiiiliiii:1131;111:133:131313533223 ioghoio Tiio oooi ioioii io mooo of iiiiooiioo ioiooo plastic and the two escutcheons are held together by a single axial screw.

11 Claims, 16 Drawing Figures ill-mm PRIVACY LOCK BACKGROUND I mounted on.

It is usually preferable if one can unlatch the door by turning either knob in either direction for unlatching. It is, therefore, desirable to have an inexpensive twoway latch mechanism rather than one that turns only one way.

Furthermore, because of the close spacing of various elements of the door latch, the throw or stroke of latch bolts in inexpensive locks is typically about inch. Although this is quite suitable for many applications, it is desirable to have a throw as long as about 1% inch as in better grade locks.

BRIEF SUMMARY OF THE INVENTION Thus, in practice of this invention according to a presently preferred embodiment, there is provided a door latch having an escutcheon insertable into an opening. through a door and defining a knob axis. A locking knob is mounted on the escutcheon for rotation about the knob axis. The knob is translatable along the knob axis for engaging the escutcheon for forming a privacy lock. A rotatable cam. operated by the latch bolt depresses a slide for unlocking the locking knob when the door is closed with the locking knob clepressed in engagement with the escutcheon. Resilient means may be provided for preventingdamage tothe slide in case the locking knob is held in while the door is closed.

DRAWINGS These and other features and advantages of the present invention will be appreciated as the'samebecomes better understood by reference to the following detaileddescription of a presently preferred embodiment when considered in connection with the accompanying drawings wherein:

FIG. 1 illustrates in partial longitudinal cross section apair of interlocking escutcheons anda locking knob in a door latch constructed according to principles of this invention;

FIG. 2 is a longitudinal cross section through the locking escutcheon and transverse to the cross section of FIG. 1;

FIG. 3 is a cross section similar to FIG. 2 and further cut away to show akickoff mechanism;

FIG. 4 is a transverse cross section through an assembled door latch with the latch boltextended;

FIG. 5 is similar to FIG. 4with the latch bolt retracted;

FIG. 6 is afragmentary view illustrating interlocking posts on the escutcheons for supporting the inner end eon;

FIG. 8 is an end view of the locking escutcheon; FIG. 9 is a fragmentary transverse cross section of the locking escutcheon; I

FIG. 10 is a transverse cross section of the locking knob;

FIG. 11 is a side view of the head of a screw for securing the escutcheons together; I 7

FIG. 12 is a cross section of the screw of FIG. 11; FIG. 13 illustrates in longitudinal cross section a latch bolt assembly; I Y

FIG. 14 is a side view of the housing for'tlie latch bolt assembly; I

FIG. 15 is an inside end view of the housing; and FIG. 16 is a face view of the latch bolt of the assembly of FIG. 13.

DESCRIPTION FIG. 1 illustrates in longitudinal cross section a door latch constructed according to principles of this invention. Three principal elements of the door latch are illustrated in this cutaway view. A locking escutcheon 20 has a peripheral flange 21 abutting one face of a door 22 shown only in phantom. The locking escutcheon 20 has a cylindrical skirt 26 that fits into an opening 27 through the door. A free escutcheon 23 is partially exploded from the other face of the door in this view and when fully installed, its flange 24 abuts the opposite face of the door from the locking escutcheon. The escutcheon used in a privacy lock on the locking side of the door (e.g., inside a bathroom) is referred to as the locking escutcheon. The opposite one is referred to as, the free escutcheon. Both flanges 21 and 24 may have radiating reinforcing ribs 25 on their inner sides for maximum strength.

. The locking escutcheon has a pair of sockets 28 into which posts 29 slide for aligning the two escutcheons. Preferably, as seen for example in FIG. 4, the two posts andsockets are made in sets of dissimilar sizes to assure proper assembly of the two escutcheons. The sockets and posts are relatively long so that the two escutcheons may stay in engagement over quite a distance. Thus, the door latch assembly may be used on doors having a variety of thicknesses, such as, for example, from about I V4 to 1 13/16 inch. The locking escutcheon engages the door by its flange 21 and the skirt 28. The free escutcheon engages the door by its flange 24 and is positioned by the locking escutcheon. The two escutcheons when engaged in this manner define a knob axis extending normal to the faces of the door.

The two escutcheons are fastened together by a screw (not shown in FIG. 1) which passes through a hole 31 on the knob axis of the free escutcheon 23. Small flats in the hole 32 lightly hold the screw in the hole prior to installation of the door latch. When assembled, the threaded portion of the screw goes into a hole 33 on the axis of the locking escutcheon 20. This hole 33 has a smaller diameter than the screw threads so that the threads cut into the plastic and secure the escutcheons together. It has been found convenient to employ a-screw 34 having a head 36 as illustrated in FIGS. 11 and 12. A series of radiating ribs 37 beneath the flat screw head engage the plastic inside the free escutcheon. As the screw is seated, these ridges tend to engage the plastic somewhat more gradually than a screw with a flat underside on the head and the person installing can sense seating of the screw since the driv-' ing torque increases rapidly as the ridges engage the plastic. This is particularly desirable when power tools are used for assembling the door latch to keep from stripping the threads formed by the screw in the hole 33. A Phillips head screw is desirable for preventing overloading and damage to the plastic when the screw is seated.

Knobs are mounted on the escutcheons for limited rotation about the knob axis. A locking knob 38 is mounted on the locking escutcheon 20. The free knob (not shown) mounted on the free escutcheon 23 is generally similar to the locking knob 38 except for absence of means for engaging the free escutcheon for the locking function. The free knob is retained on the free escutcheon in the same manner as the locking knob is retained on the locking escutcheon. Each knob has a shaft 39 that fits into the hub 41 of the escutcheon. The shaft has a short ramp 42 that rides over a corresponding ramp 43 inside the hub of the escutcheon (FIG. 9). To assemble the knob onto the escutcheon, the two are forcibly pressed together with the ramps in alignment. This causes a slight elastic deformation of the shaft and hub and permits the knob to enter. Thereafter, the knob is retained in place as the shoulder at the end of the knob ramp engages a shoulder 44 within the escutcheon. A raised portion 45 within the escutcheon engages the sides of the ramp 42 on the shaft and thereby acts as a stop limiting the extent of rotation of the knob.

The locking knob has a pair of sockets 46 in which pins 47 are seated (one of the pins is deleted in FIG. 1 The free knob (not shown) has sleeves corresponding to the sockets 46 through which the pins 47 extends. The pins are free to slide longitudinally through the sleeves in the free knob for accommodating different door thicknesses. The pins extending between the two knobs assure that they rotate together about the knob axis. The sleeves are long enough to engage a long part of the pins and assure that there is minimal twisting of the knobs relative to each other. The gripping body of the knob is open on its outer end and may be closed with a snap-in decorative cap 48. When used as privacy lock, the cap on the free knob may have a central aperture for actuating an external release mechanism in the same general manner as described in U.S. Pat. No. 3,580,622.

The locking escutcheon is seen in various aspects in FIGS. l,2,4,8 and 9. A transverse web 49 extends across the interior of the escutcheon and has an enlarged central portion 51 through which the axial hole 33 for the screw extends. A pair of opposed arcuate fingers 52 extend outwardly from the central portion 51 towards the locking knob. The space between the fingers provides clearance for the end of the screw (not shown) extending through the axial hole. About midway along the length of each of the fingers there is an outer ridge 53 which can engage an inwardly extending annular ridge 54 within the shaft 39 of the knob. The opposed ridges 53 and 54 on the fingers and knob, respectively, cooperate to act as a detent for yieldably retaining the knob in either of two axial positions. As illustrated in FIG. 1, the locking knob 38 is axially displaced away from the door 23 in its unlocked position. To lock the door latch, the knob is pressed inwardly to a position as shown in phantom in FIG. 1. This causes the ridge 54 in the knob shaft to over-ride the ridges 53 on the fingers thereby elastically bending the fingers inwardly and yieldably retaining the knob in either its locked or unlocked position.

A bullet-shaped plug 56 (see also FIG. 10) fits between the free ends of the fingers 52, remote from the enlarged central portion 51 for providing inward lateral support of the free ends of the fingers and preventing them from collapsing too readily as the detent overrides. Thus, instead of merely being cantilevered outwardly from the enlarged portion, the fingers are also supported by the plug at the free end. The plug 56 is mounted in the locking knob by a transverse web 57. It will be noted that such a plug and web are absent in the free knob to permit access by a screw driver to the screw for holding the escutcheons together.

The locking knob and locking escutcheon can be engaged by complementary crenellations for preventing rotation. The locking escutcheon has a series of internal notches or crenels 58 inside the end of the hub (FIGS. 8 and 9). The locking knob has an annular groove 59 between the shaft 39 and the gripping portion of the knob (FIGS. 1 and 10). A plurality of teeth for merlons 61 extend into the groove and are complementary to the notches 58 in the hub of the escutcheon. When the knob is pressed towards the door in its locking position, the teeth 61 engage the notches 58 and prevent the knob from being rotated.

In addition, the locking knob has a pair of notches 62 (FIG. 5) complementary to the web 49 (FIG. 8) within the locking escutcheon. This also serves to prevent the knob from rotating. Since the notches 62 at the inner end of the shaft and the teeth 61 near the outer end of the shaft are axially spaced on the knob, any tendency for skewing of the knob which could cam it out of its locking position is prevented. It will be apparent that either the teeth 61 or notches 62 may be employed on the locking knob for engaging it with the escutcheon and preventing knob rotation.

Tle locking engagement of the locking knob and escutcheon is employed when a privacy lock is desired, such as, for example, on a bathroom door. In many applications, as passage lock is desired and identical parts may be used with the sole exception that an additional ring or extension 63 (FIG. 9) is made integral with the outer end of the hub on the locking escutcheon. This added ring of material extends to the root of the groove 59 in the knob and prevents the locking knob from being translated, thereby preventing locking.

The locking escutcheon also has a post 64 on the transverse web 49 and extending towards the free escutcheon. The post has a V-shaped notch 66 facing outwardly relative to the knob axis. The post 64 is seen in the fragmentary cross section of FIG. 6. There is a recess 67 in the web at the base of the post. Another post 68 is on the free escutcheon (FIGS. 1, 6 and 7). This post 68 has a V-shaped inner face 69 that fits into the V-shaped notch 66 on the post 64 on the locking escutcheon when the door latch is assembled. A raised nib 71 on the end of the post 68 fits into the recess 67 inthe locking escutcheon when the latch is assembled on a door of minimum thickness. This extra nib assures that the posts 64 and 68 are aligned even when the latch is assembled on a door of maximum tolerable thickness. The complementary V-shaped portions on the posts assure that a side load on the posts is shared by both and neither is simply cantilevered from its respective escutcheon without some support at its free end. The free escutcheon has a sloping surface 70 I (FIG. 7) and the locking escutcheon has a similar sloping surface 75 (FIG. 4) which slope laterally outwardly and axially towards the door so that the latch bolt (described hereinafter) does not cath on a sharp corner when it is retracted.

The escutcheons and knob illustrated in FIG. 1 can be considered to be a latch bolt operating mechanisum which upon rotation of the knobs in either direction from a central rest position serves to retract a latch bolt from its extended position and permit opening of the door. The operating mechanism is installed through an opening between the faces of the door. The latch bolt assembly described hereinafter is inserted through a hole in the edge of the door transverse to the opening between the faces. A suitable latchbolt assembly and components thereof are illustrated in FIGS. 13 to 16.

The latch bolt assembly is made up of four parts, namely, a latch bolt housing 101, a latch bolt 102 that fits through the housing, a coiled compression spring 103, and a spring retainer 104. These parts are shown in their assembled relation in the longitudinal cross section of FIG. 13. The latch bolt housing 101 is in the general form of a hollow cylinder so that it can be easily driven or pressed into a cylindrical hole (not shown) bored into the edge of a door. A pair of opposed ribs 106 on the exterior of the housing prevent it from rotating in'the hole once it is driven in place.

At its inner end, the housing has a pair of flat bottomed grooves 107 which engage the edges of a notch in the skirt 26 of the locking escutcheon (see FIG. 5). This engagement of the grooves 107 with the skirt serves to retain the latch bolt assembly in its hole. The inner end of the housing 101 (FIG. 14) is curved to clear the free escutcheon and there is no engagement therebetween.

The interior of the latch bolt housing is cylindrical except for a flat 108 near its outer end, namely, that end adjacent the edge of the door. The flat 108 is opposite a corresponding flat longitudinal side 109 on the latch bolt 102 so that when the latch bolt is installed in the housing, it is prevented from rotating.

The latch bolt has a beveled face 111 opposite the flat face 109. These faces on the latch bolt cooperate with the striker plate (not shown) on the door jamb in a conventional manner for latching a door.

At the opposite end (inner end) of the latch bolt from the striker plate engaging faces are a pair of approximately parallel legs 1 l2 spaced apart by a central longitudinal slot 113. The slender legs 112 permit the end of the latch bolt to collapse as it is inserted through the hole in a door and spring back for engaging the latch operating mechanism. A ramp 114 on each of the legs 112 cooperates with the pins 47 in the latch operating assembly for retracting the latch bolt in a manner described in greater detail hereinafter. The ramps slope in a direction away from the center line of the latch bolt and away from the door edge.

The latch bolt has a central longitudinal slot 116 between side walls 117. A raised spring seat post 118 is integral with the latch bolt in the central slot near its outer end. One end of the coil spring 103 is seated on the spring seat 118. The opposite end of the coiled spring is seated on a similar post 119'on the spring retainer 104. The spring retainer is in theform of a flat, generally U-shap'ed plastic member having the bight of the U seated against a transverse stop web 121 at the inner end of the central longitudinal slot 116. The legs 122 of the spring retainer 104 have an outwardly flaring portion near their extreme ends to provide a ramp surface 123 on the outside of the U.

To assemble the latch bolt into the latch bolt housing, the spring and spring retainer are assembled on to the latch bolt in a position with' the legs 122 straddling the transverse web 12] substantially as shown in FIG. 13. This subassembly is then pressed longitudinally through the latch bolt housing from its inner end. The ramp surfaces 123 on the legs bear against the end of the housing and elastically bend the legsinwardly to fit into the cylindrical bore of the housing. The subassembly easily slides along the length of the housing until the ends of the legs 122 reach a pair of transverse apertures 124 in the side of the housing; this permits the legs to snap outwardly and, to some extent, limit further insertion of the latch bolt subassembly into the housing. The ends of the legs of the spring retainer bear against the walls of the apertures 124 and enable the coil spring 103 to bias the latch bolt towards its extended position for engagement with a striker plate.

At its outer end, the latch bolt housing has a tapered peripheral flange 126 that limits the extent the latch bolt assembly is pressed into the door. The outer face of the peripheral flange is flush with the edge of the door when the housing is pressed or hammered into place. Near its outer end, the housing 101 has a pair of opposed slits 127a and 127b extending through the wall on the portion nearer the trailing and leading faces of the door, respectively (the leading face beingthe one reaching the jamb first as a door is closed). Between the ends of these transverse slits are webs 128 which connect the inner and outer end of the housing. The slits provide a localized weakening of the wall of the housing and the webs are sufficiently bendable that the outer end of the housing can be tilted with respect to its axis. Thus, in effect, the housing is made of an inner cylinder of substantial length that fits into the hole in the door and typically is parallel to the faces of the door when it is installed, and a second shorter cylinder near the outer end and also fittable into the hole in the door. These two cylinders are interconnected by the webs 128 which are bendable so that the outercylinder can tilt relative to the inner cylinder.

When the latch bolt assembly is installed in a door that has an edge normal to its faces, the two cylindrical portions of the housing remain aligned. When the latch bolt assembly is inserted in a door with a beveled edge, the webs bend slightly and the outer cylindrical portion tilts so that the peripheral flange 126 is flush with the beveled edge. Such a tilting may be only 1 to 3 in conventional beveled edge doors.

This tilting of the outer cylinder also tends to close up the leading slit 127b nearer the leading face of the door and widen the trailing slit 127a. The extent of such openng and closing is relatively small but there was a concern that the slight steps introduced into the interior of the housing could catch on some portion of the latch bolt as it moves through the housing and thereby impede its operation. The slits 127 are therefore made quite narrow near the root adjacent the inside walls of the housing. They are made relatively wide near the outside of the housing to assure complete clearance for the required tilting and also to provide adequate strength in the molds preferably used for injection molding of the plastic housing.

The concern for catching of the latch bolt on any minor steps introduced by tilting of the outer end of the housing is also evidenced by a very thin web 129 at the root of the slit 127b which becomes more closed when the assembly is inserted in a beveled door. This web is typically less than about 0.010 inch thick and has little, if any, effect on the ability of the outer cylindrical end of the housing to tilt. This web does, however, provide a smooth transition between the tilted and untilted portions of the housing and further guarantees that the latch bolt will not catch on any slight step in the interior of the housing. This is clearly an optional feature and may be deleted, if desired, leaving a completely open slit at each side of the housing. It might also be noted that a very thin web can be left at the root of each of the slits, if desired, to guarantee a smooth transition between tilted and untilted portions of the housing. This can be done effectively without substantially impairing the tiltability of the outer end of the housing but it is a difficulat matter for injection molding. It has not been found to be necessary and the risk of undesirable flash due to imperfect webs could be more serious than the very slight steps actually encountered in the illustrated arrangement.

Referring now to FIGS. 4 and 5, the cooperation between the inner end of the latch bolt 102 and the locking escutcheon 21 can be seen. In FIG. 5, the inner end of the latch bolt housing 101 is seen with its edge grooves 107 in the notch 71 in the skirt of the locking escutcheon. In FIG. 4, the housing is deleted and only the latching bolt 102 from the latch bolt assembly is illustrated. In FIG. 4, the latch bolt is shown in its extended or latching position when the pins 47 are in their rest position on a line substantially parallel with the edge of the door. In FIG. 5, the knobs have been twisted so that the pins are rotated towards one of their extreme positions (clockwise from their position in FIG. 4) for retracting the latch bolt.

The legs 112 on the latch bolt have their ends straddling the post 64 on the locking escutcheon and the mating post 68 on the free escutcheon. When the knobs are in their rest position, the pins 47 are out of, or in only very light, engagement with the ramps 114 on the ends of the legs. The latch bolt is biased towards its extended position by the spring 103.

When the knobs are twisted, for example clockwise as in FIG. 5, one of the pins 47 rides along the corresponding ramp 114 and thereby earns the latch bolt towards its retracted position. It will be seen by comparing the positions of the pins and latch bolt in FIGS. 4 and 5 that the stroke or the throw of the latch bolt is substantially greater than the distance traveled by the pins in a direction parallel to the axis of the latch bolt. This motion amplification is obtained because of the sloping ramps 114 on which the pins 47 ride. By this means, a latch bolt stroke of about A inch can be obtained with a pin travel of only about 5/16 inch in a direction along the direction of latch bolt travel.

In order to obtain the maximum throw of the latch bolt, a recess 72 is provided in the side of each leg 112 at the base of the ramp 114. Similarly, recesses 73 are provided in the sides of the latch bolt beyond the end of the slit 113 between the legs. These recesses 72 and 73 accommodate the pins 47 as seen in FIG. 5 when the knobs are twisted to their extreme position. This permits the pins to travel slightly further, thereby increasing the available stroke of the latch bolt.

Close examination of FIG. 4 will also disclose that the pins in their rest position are on a line approximately parallel to the edge of the door and this line is relatively nearer the door edge than the screw 34 which is on the knob axis. Because of this placement of the pins, the total stroke of the pin 47 that engages its respective ramp 114 is greater in the direction of the throw of the latch bolt than it would be if the pins were at the same distance from the door edge as is the knob axis. This extra stroke of the pin that operates the door latch results in a greater stroke of the latch bolt. This placement of the pins relatively nearer the door edge than the knob axis also means that the pin that travels towards the door edge comes closer to the latch bolt axis than does the pin that travels away from the door edge. For this reason, the bottoms of the recesses 73 are closer together than the bottoms of the recesses 72.

The stroke available in the latch bolt is also increased by making the ramps 114 as long as possible and spacing the pins 47 radially from the knob axis as far as possible. This enlargement means that the width of the latch bolt must also be increased and difficulty may be encountered in inserting it through the hole in the edge of a door in which the latch bolt housing 101 is seated. The slit 113 between the two legs of the latch bolt permits the slender legs 112 to elastically bend and collapse towards each other to provide clearance between the enlarged ends of the legs and the inside of a hole as the latch bolt assembly is mounted in the door. These slender legs would also deform under the pressure of the pin 47 as the knob is turned, if it were not for the posts 64 and 68 which are positioned between the legs when the door latch is assembled. The two posts interlock to some extent by way of V-shaped surfaces therebetween so that the lateral load imposed by one of the legs onto the posts is shared by both of them.

It will be apparent that if the knobs are twisted in the opposite direction from that illustrated in FIG. 5, the other pin 47 will engage its corresponding ramp 114 and operate the latch bolt in exactly the same manner as that illustrated.

One minor problem may be encountered with a privacy lock, namely, that the latch is locked while the door is open and thereafter the door is closed. That is, the locking knob may be pressed in and in engagement with the locking escutcheon before the door is closed. Absent some type of release mechanism, the privacy lock may stay locked, thereby denying access from the outside. This is not a common occurrence and with a door latch having a simple external release, is not a severe problem. It is an annoyance, however, and it may be desirable to provide a means for releasing the locking knob from the locking escutcheon, in response to retraction of the latch bolt as it passes over the striker plate.

For this purpose, there is provided a cylindrical cam 76 on a post 77 in the locking escutcheon (FIGS. 1 through 5). The cam fits loosely on the post so that it is free to rotate. It is held on to the post by a press nut 78. The cam 77 has an outwardly extending wing 79, one face of which is substantially tangential to the cylindrical body of the cam. As best seen in FIGS. 2 and 3, a curved camming surface 81 is provided transverse to the cylindrical surface of the cam body.

A slide 82 fits into a channel in the locking escutcheon and is retained in place by the cam 76. The slide 82 is shown in end view in FIG. 5 and in cross section in FIG. 4. The inner face of the slide is seen in the cutaway portion of FIG. 3 and the slide is also seen in longitudinal cross section in FIG. 1. The slide is in the form of a frame having a window 83. A rectangular plunger 84 is mounted in the window and biased towardsthe knob end of the slide by a coil spring 86.

As best seen in FIGS. 4 and 5, the inner faces of the slide 82 and plunger 84' have a curved center portion to provide clearance for pivoting of the adjacent pin 47. Similarly, the face 87 at one end of the slide is set back from the curved face of the plunger and is also curved to provide clearance for the shaft of the knob. Near the other end of the slide is a small cam shoulder 88 which engages the camming surface 81 on the cam 76.

When the locking knob is in its unlocked position as illustrated in FIG. 1, the slide is relatively loose in its channel and serves no functional purpose. When the knob is seated in its locking position, however, a small portion of the end of the shaft 39 on the locking knob engages the end of the plunger 84 adjacent the recessed face 87 of the slide. This presses the slide and the plunger assembly towards the cam 76 so that the camming surfaces 81 and 88 are in engagement. The camming action twists the cam around the post 77so that it is in a position as illustrated in FIG. 4 with the wing 79 adjacent the end of the latch bolt.

If the latch bolt is then retracted, such as for example by closing the door, the end of the latch bolt presses against the wing 79 and rotates the cam to a position as illustrated in FIG. 5. This rotation causes the camming surface 81 to bear against the camming shoulder 88 and press the slide towards the knob. The engagement of the end of the plunger 84 with the shaft 39 of the knob causes it to over-ride the detents (53, 54) on the fingers 52 and come out of engagement with the locking crenellations on the escutcheon. The spring 86 is chosen with a sufiiciently high compression force that the detents are over-ridden and the latch unlocked before the spring yields a significant amount.

There is one other problem that can occur, namely, the door is closed while someone is forcibly holding the locking knob in its locking position. The resilience of the spring 86 between the plunger and slide prevents breakage of parts in this case. When the door is closed in this situation, the end of the latch bolt operates on the wing 79 and rotates the cam in the above-described manner, thereby displacing the slide towards the knob. Since the knob is being held in its locked position, the plunger in engagement with the end of the shaft cannot move and the spring 86 is compressed.

Thus, the cam, slide and plunger provide a linkage between the latch bolt and locking knob that provides a kickoff so that the privacy lock is unlocked in case the door is closed with the latch already locked. The resilient mounting of the plunger prevents damage to the lock in the extreme situation where the door is closed while the locking knob is held in its locking position.

, Although but one embodiment of two-way turn door latch, which can be used as either a privacy lock or a passage latch, and which includes a kickof feature toprevent inadvertent door locking and which has a relatively long throw of the latch bolt and a latch bolt housing that conforms to a beveled door, has been shown and described in detail herein, many modifications and variations will be apparent to one skilled in the art. It is therefore tobe understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described. What is claimed is:- I 1. In a door latch having a latch bolt extendable through the edge of a 'door,'an escutcheon mountable on one face of a door and a lockingk'nob mounted for rotation and translation on the escutcheon, said knob being rotatable when translated aw'ay from the door face and interlockable with the-escutcheon when translated towards the door face for t'e'mporary lockin g, an improved means for releasing interlocking of the knob and escutcheon in response to retraction of the latch bolt comprising:

a cam mounted for rotation in the escutcheon and including a camming surface; means engaging the latch bolt for causing rotation of the cam in response to retraction of the latch bolt;

and slide means mounted in the escutcheon between the camming surface on the cam and the knob for causing translation of the knob away from the door in response to rotation of the cam.

2. In a door latch as defined in claim 1 an improved means for releasing wherein one portion of the slide means engages the camming surface on the cam, and another portion of the slide means engages the knob; and further comprising:

resilient means between the two portions of the slide means for limiting the translation force therebetween.

3. In a door latch as defined in claim 2 an improved slide means comprising:

a frame defining a window therein mounted for translation in the escutcheon normal to the face of a door, said frame including means for engaging the camming surface on the cam;

a plunger mounted in the window in the slide means for translation in a direction normal to the face of a door and including a portion for engagement with the knob; and wherein the resilient means comprising a spring between the plunger and frame.

4. In a door latch as defined in claim 3 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob, and the means for causing rotation of the cam comprises a wing extending away from the rotation axis of the cam for engaging the end of the latch bolt.

5. In a door latch as defined in claim 2 including detent means for inhibiting translation of the knob, the improvement wherein the translation force for the resilient means is greater than the force required to overcome the detent means.

6. In a door latch as defined in claim 1 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob, and the means for causing rotation of the cam comprises a wing extending away from the rotation axis of the cam for engaging the end of the latch bolt.

7. In a door latch to be mounted on a door having-an opening therethrough adjacent one edge and having a hole in said edge into the opening, comprising a first locking escutcheon member insertable into and adapted to overlie one end of the opening through thedoor, a second escutcheon member insertable into and adapted to overlie the other end of the opening through the door, said escutcheon members defining a knob axis, means for interconnecting the escutcheon members, and a latch bolt insertable into the hole in the door edge transverse to the knob axis, a knob mounted on the second escutcheon member, a locking knob mounted on the locking escutcheon member for rotation about the knob axis, said locking knob being selectively interlockable with the locking escutcheon membet for preventing rotation of the knobs about the knob axis upon translation of the locking knob along the knob axis, an improved means for releasing the locking engagement between the locking knob and locking escutcheon member comprising:

a cam mounted for rotation in the locking escutcheon member and including a camming surface; a wing on the cam engaging the end of the latch bolt for causing rotation of the cam upon retraction of the latch bolt; and l v a slide mounted in the locking escutcheon member and having a camming surface for engagement with the camming surface on the cam for causing translation of the slide towards the locking knob upon rotation of the cam, and having a portion opposite the camming surface for engaging a portion of the locking knob. 8. In a door latch as defined in claim 7, an improved slide further comprising:

a plunger mounted on the slide and having an end'in engagement with the locking knob; and

resilient means between the slide and plunger for limiting the translation force therebetween.

9.In a door latch as=defined in claim 7 an improved slide comprising:

a frame defining a window therein mounted for translation in the escutcheon normal to the face of 'a door, said frame including the camming surface for engaging the camming surface on the cam;

a plunger mounted in the window in the slide means for translation in a directiontnormal to the face of a door and including the portion for engagement with the knob; and

a spring between the plunger and frame for limiting the translation force therebetween.

10. In a door latch as defined in claim 9 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob and the wing extends away from the rotation axis of the cam for engaging the end of the latch bolt.

11. In a door latch as defined in claim 10 including detent means for inhibiting translation of the locking knob, the improvement wherein the translation force for the spring is greater than the force required to overcome the detent. 

1. In a door latch having a latch bolt extendable through the edge of a door, an escutcheon mountable on one face of a door and a locking knob mounted for rotation and translation on the escutcheon, said knob being rotatable when translated away from the door face and interlockable with the escutcheon when translated towards the door face for temporary locking, an improved means for releasing interlocking of the knob and escutcheon in response to retraction of the latch bolt comprising: a cam mounted for rotation in the escutcheon and including a camming surface; means engaging the latch bolt for causing rotation of the cam in response to retraction of the latch bolt; and slide means mounted in the escutcheon between the camming surface on the cam and the knob for causing translation of the knob away from the door in response to rotation of the cam.
 2. In a door latch as defined in claim 1 an improved means for releasing wherein one portion of the slide means engages the camming surface on the cam, and another portion of the slide means engages the knob; and further comprising: resilient means between the two portions of the slide means for limiting the translation force therebetween.
 3. In a door latch as defined in claim 2 an improved slide means comprising: a frame defining a window therein mounted for translation in the escutcheon normal to the face of a door, said frame including means for engaging the camming surface on the cam; a plunger mounted in the window in the slide means for translation in a direction normal to the face of a door and including a portion for engagement with the knob; and wherein the resilient means comprising a spring between the plunger and frame.
 4. In a door latch as defined in claim 3 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob, and the means for causing rotation of the cam comprises a wing extending away from the rotation axis of the cam for engaging the end of the latch bolt.
 5. In a door latch as defined in claim 2 including detent means for inhibiting translation of the knob, the improvement wherein the translation force for the resilient means is greater than the force required to overcome the detent means.
 6. In a door latch as defined in claim 1 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob, and the means for causing rotation of the cam comprises a wing extending away from the rotation axis of the cam for engaging the end of the latch bolt.
 7. In a door latch to be mounted on a door having an opening therethrough adjacent one edge and having a hole in said edge into the opening, comprising a first locking escutcheon member insertable into and adapted to overlie one end of the opening through the door, a second escutcheon member insertable into and adapted to overlie the other end of the opening through the door, said escutcheon members defining a knob axis, means for interconnecting the escutcheon members, and a latch bolt insertable into the hole In the door edge transverse to the knob axis, a knob mounted on the second escutcheon member, a locking knob mounted on the locking escutcheon member for rotation about the knob axis, said locking knob being selectively interlockable with the locking escutcheon member for preventing rotation of the knobs about the knob axis upon translation of the locking knob along the knob axis, an improved means for releasing the locking engagement between the locking knob and locking escutcheon member comprising: a cam mounted for rotation in the locking escutcheon member and including a camming surface; a wing on the cam engaging the end of the latch bolt for causing rotation of the cam upon retraction of the latch bolt; and a slide mounted in the locking escutcheon member and having a camming surface for engagement with the camming surface on the cam for causing translation of the slide towards the locking knob upon rotation of the cam, and having a portion opposite the camming surface for engaging a portion of the locking knob.
 8. In a door latch as defined in claim 7, an improved slide further comprising: a plunger mounted on the slide and having an end in engagement with the locking knob; and resilient means between the slide and plunger for limiting the translation force therebetween.
 9. In a door latch as defined in claim 7 an improved slide comprising: a frame defining a window therein mounted for translation in the escutcheon normal to the face of a door, said frame including the camming surface for engaging the camming surface on the cam; a plunger mounted in the window in the slide means for translation in a direction normal to the face of a door and including the portion for engagement with the knob; and a spring between the plunger and frame for limiting the translation force therebetween.
 10. In a door latch as defined in claim 9 an improved means for releasing wherein the cam is mounted for rotation about an axis parallel to the rotation axis of the knob and the wing extends away from the rotation axis of the cam for engaging the end of the latch bolt.
 11. In a door latch as defined in claim 10 including detent means for inhibiting translation of the locking knob, the improvement wherein the translation force for the spring is greater than the force required to overcome the detent. 